CA2091686C

CA2091686C - Crystalline modification of 2-dimethylaminoethyl-n-butylaminobenzoate hydrochloride, method for production thereof and pharmaceutical preparation for anesthesia of eyes, based thereon

Info

Publication number: CA2091686C
Application number: CA002091686A
Authority: CA
Inventors: Nikolai Borisovich Leonidov
Original assignee: Individual
Current assignee: Individual
Priority date: 1991-08-19
Filing date: 1991-08-19
Publication date: 1997-09-30
Anticipated expiration: 2011-08-19
Also published as: AU647824B2; AU8431691A; JPH0753703B2; US5403951A; EP0553351A1; JPH06504519A; EP0553351A4; DE59107171D1; EP0553351B1; CA2091686A1

Abstract

A novel crystalline modification of 2-dimethylamino-ethyl-n-butylaminobenzoate hydrochloride is characterized by a single endothermal effect of melting at 148.6~0.3°C
and the following values of interplanar spacings d and relative intensities of reflections I:

d, .ANG. I d, .ANG. I
26.I40 3 2.824 4 I2.755 I00 2.798 2 8.538 27 2.762 I
6.380 6 2.744 2 6.II7 2 2.678 2 5.644 6 2.63I I
5.49I I2 2.570 I
5.096 56 2.534 I
4.874 I7 2.5I4 I
4.486 I0 2.454 I
4.244 I5 2.4I9 I
4.4I8 7 2.346 I
4.I37 I 2.308 I
4.00I 5 2.256 I
3.949 3 2.232 I
3.828 5 2.I66 I
3.585 3 2.008 I
3.5I5 7 I.953 2 3.427 3 I.69I I
3.34I 3 I.584 I
3.3I0 3 3.I70 3 3.I56 4 3.I49 4 d , .ANG. I d, .ANG. I
3.064 I
2.979 2 2.944 I
2.903 I
A method for production of said compound residing in that a solution of 2-dimethylaminoethyl-n-butylaminobenzoate hydrochloride of polymorphic form in water or organic solvent, or in their mixture, is cooled by a cooling agent at a rate of no less than 8°C/min till complete crystallization of the solution with subsequent drying of obtained crystals.
Compound of the invention has a local anaesthetic activity and is an active principle of a pharmaceutical preparation for anaesthesia of eyes (content of active principle is from 0.05 to 0.5% by mass).

Description

2091~86 CRYSTALLlN~; MODIFICAT ION OF 2 ~ Y l,AMI~OETHyL--N-BU~Y~AMINOB:E~ZOAI E HYDROCHLORIDE, 1 aE~HOD ~?OR PRO-DUCTION TXEREOF AND PHARMACEUTICAI, PREPARATION FOR
AN~ESTE~SIA O:F EYES, BASED T~R13ON
5Te~hnical Field The present invention relates to organic chemistry, more particularly to a novel cr~stalline modification of 2~dimethylaminoethyl-n-butyl ~mi nobenzoate hydrochloride, a method of production thereof and a pharmaceutical prepa-ration for anaesthesia of eyes, based thereon.
Background Art Known in the art is a crystalline modification of 2-dimethylaminoethyl-n-butylaminobenzoate hydrochloride ( tetracaine ), polymorphic form ( R.C.Sullivan, K.P.
O'Brien. X-ray diffraction studies of cocaine and its sub-stitutes. - Bull.Narcotics, 1968, V.20, pp.31 - 40),¢ha-racterized by the following set oY interplanar spacings d and relative intensities of reflections I:
O
d, A
- I2~55 I00 8.38 42 6,28 I2 5.g~ 8 5,05 67 4.83 I2 4.43 8 4.22 20 3.97 II
3~78 I0 3.56 8 - 3.48 I7 3,30 I0 3 ~ I2 I0 d~ ~ I
2,805 7 2~66I 5 2~507 5 2 ~ I5I 4 Io949 4 Also known in the art is a crystalline modification of 2-dimethylaminoethyl-n-butylaminobenzoate hydrochloride (amethocaine), polymorphic form (I.T.R.Owen, R.Sithiraks, F.A.Underwood. X-ray powder dif~raction data ~or seventeen local a~esthetics. - I.Ass.Off Analyt. Chem., 1972, V.55) characterized by the following set of interplanar spacings d and relative intensities of reflections I:
O o d, A I d, A
I3~3 I0 3~22 7 8 .06 I0 3 ~ I7 I0 6.55 40 3.0~3 9 6~23 20 3~03 7 6rO2 40 3~00 7 5~73 6 2~94 4 5~07 6 2~87 6 4~78 I5 2 ~82 I2 4~50 25 2~77 9 4~39 I3 2~7I 6 4~23 20 2~66 7 4~05 I5 2062 6 3~98 I8 2~58 6 3~83 25 2~54 - 7 3~73 I2 2~50 4 3~65 I00 2~46 6 3~57 I0 2~42 6 3045 20 2~32 6 3 ~ 40 7 2 ~28 6 3028 6 2~24 ' 6 ~ 2~I5 6 Melting point of specified modifications is in the range of from 147 to 151~C. In this case, the process of melting of these modifications is a sequence of two endo-thermal effects (R.Curini, S.Zamponi, F.D'Ascenzo, S.De Angelis Curtis, A.Marino, A.Dezzi, ~hermal analytical techn;ques applied to the narcotic field: cocaine analysis.-Thermochim. Acta, 1989, V.153, N I, pp.11 - 26).
Known in the art is a method for production of said modifications of 2-dimethylaminoethyl-n-butylaminobenzoate hydrochloride, comprising a process of n-butylation of ~-dimethylaminoethyl-para-aminobenzoate with subsequent crystallization of the obtained product in the mixture with hydrosulfite and carbon from ethyl alcohol at 2 - 3~C
and drying (Synthetic chemieo-pharmaceutical preparations, "Meditsina", (Moseow), 1971, pp.75 - 77).
~ he obtained product represents the aforementioned crystalline modifications characterized by the specified set of values d and I. Melting point of the obtained com-pound is in the range of 147 - 151~C with two subsequent endothermal effects.
The obtained product is a white crystalline powder having a slightly bitter taste, which causes temporary anaesthesia of the tongue, soluble in water and alcohol, moderately soluble in chloroform and practically insoluble in ether.
The known crystalline modifications of said compound, showing an effect of local anaesthesia, are highly toxic.
Besides, the known modifications of said compound have considerable side effects and when pharmaceutical preparations based on these compounds are used in ophthal-mosurgery, they cause eyelid edema, injury to cornea epi-thelium, erosions, considerable dilation of conjuctiva.
Eye drops based on these compounds are unstable in storage (term of validity is 3 months on condition of additional stabilization of the solution).
~ he crystalline modification of 2-dimethylaminoethyl--n-butylaminobenzoate hydrochloride according to the in-vention, method of its production and application are novel and haven't been described in the literature.
Summary of the Invention ~he Invention is based on the problem to provide a novel crystalline modification of 2-dimethylAm;noethyl-n--butylaminobenzoate hydrochloride showing a high loeal anaesthetic effect, having no side effects, as well as to provide a method for production o~ this modifiGation and a pharmaceutical preparation based thereon.
~he problem is solved by that provided is a novel crystalline modification of 2-dimethyla~inoethyl-n-butyl-aminobenzoate hydro~hloride, characterized by a single endo~hermal effect of melting at 148.6+0.3~~ and the fol-lowing values of interplanar spacings d and relati~e in-tensities of re~lections I:
O O
I d~ A I d~ A
3 26~I40 4 2,824 I00 I2.755 2 2,798 27 8~538 I 2,762 6 6,380 2 2,744 2 6,II7 2 2,678 6 5,644 I 2,63I
I2 5.49I I 2~570 56 5~096 I 2.534 I7 4.874 I 2.5I4 I0 4.486 I 2,454 I5 4.244 I 2.4I9 7 4.4I8 I 2.346 I 4,I37 I 2,308 4~00I I 2,256 3 3,949 I 2,232 3~828 I 2~I66 3 3.585 I 2,008 7 3.5I5 2 I.953 o 2 0 g ~ ~ 8 ~

o o I d~ A I d, A
3 3,427 I I~69I
3 3.34I I I~5~34 .
3 3.3I0 3 3.I70 4 3~I56 4 3.I49 3 . 064 2 2~979 2.944 2.903 The invention is also a method for production of a novel crystalline modification of specified compound, which ~ethod, according to the present invention, resides in that a solution of 2-~;methylaminoethyl-n-buty1~mi nobenzoate hydrochloride of pol~morphic form in water or an organic solvent,or in their mi~ture is cooled by a cooling agent at rate of no less than 8~C/min till complete crystalliza-tion with subsequent isolation of the obtained crystals and their drying. In doing so, it is desirable to use etha-nol as an organic solvent and liquid nitrogen,as a coolin~agent. Drying is preferably carried out in vacuo at a pres-sure of no more than 10 2mm Hg.
The obtained novel crystal1ine modification of 2-di-methylaminoethyl-n-butylaminobenzoate hydrochloride shows higher local anaesthetic activity and considerabl~ re-duced side effects as compared with the kno~n polymorphic form of the i~dicated compound.
The novel crystalline modification of said compound according to the present invention finds application in ophthalmology.
A pharmaceutical preparation for anaesthesia of eyes containing an active ingredient and a pharmaceutical solvent~
according to the present invention,as an active principle comprises the claimed crystalline modificatio~ of 2-dimethyl-- 6 - ~ 2091~86 ~minoethyl-n-butylaminobenzoate hydrochloride in amount o~ from 0.05 to 0.5% by mass.
With the aim to effectively use the active ingredient and to increase a prolongated effect, the preparation of the invention may additionally contain alkylcellulose in amount of from 0.1 to 0.75% by mass.
As alkylcellulose, the preparation of the invention preferably contains water-soluble methylcellulose The preparation of the invention has high local ana-esthetic activity, practically doesn't cause side effects.
~ igh local anaesthetic activity of the active ingre-dient allows to reduce its concentration in the claimed pharmaceutical preparation as compared with the known pre-paration on the base on other modifications (of polymor-phic form) by a factor of three and more, which fact considerably decreasestoxicity of the preparation. The preaparation of the invention is characterized by stabi-lity in storage which makes it possible to prolong its term of validity ( more than 1 year).
Best Mode to Carry out the Invention The novel crystalline modification of 2-dimethylami noethyl-n-butylaminobenzoate hydrochloride according to the present invention is a finest crystalline powder of white colour, soluble in water and alcohol, practically insoluble in ether. Unlike known crystalline modifications, this modification is soluble in chloroform. 1% aqueous solution of the claimed modification has a pH value in 4.5 - 6.0 range.
As distinct from the known polymorphic forms, the obtained novel crystalline modification is characterized by a single endothermal effect of melting at a temperature OI 148.6 + 0.3~C.
Process of meltin~ of the known crystalline modifi-cations of the specified compound, said modifications having melting point in the range of 147 - 151~C~ is a sequence of two endothermal effects.
The obtained thermoanalytical data evidence that the 2U9li~

compound of the invention is a novel crystalline ~odifica-tion of 2-dimethyl ~mi noethyl-n-butylaminobenzoate hydrochlo-ride.
~o identify the claimed compound, ~ complex of chemi-cal, physico-chemical and pharmacopoeia methods of analysis was employed.
To confirm the novel cr~stalline modification of the the compound of the invention, a radiographic phase analysis in Guinier camera with registration of diffraction peaks on a radiographic film was used.
Comparison of the values of interplanar spacings d and relative intensities of reflections I of the compound of the invention and of the known modifications proves that the compound of the invention is a novel crys-talline modification of 2-dimeth~laminoethyl-n-butylamino-benzoate hydroehloride.
Using the methods of qualitative and quantitative de-termination, it was found that the compound of the inven-tion is 2-dimethylaminoethyl-n-butylaminobenzoate h~drochlo-ride of 99.&% purity.
~ hese data are confirmed by the high resolutionNMR1~C spectroscopy and gas chromatography methods.
High resolution NI~13C spectra were measured on a Nr~-spectrometerwith a superconducting magnet, observation frequency for carbon nuclei 131.00 r~qHz. Measurements of che-mical shifts ~,~13C - IH of the samples of the known modi-fication an~the claimed one of the specified compound was carried out using their saturated solutions in deuterodi-methylsulfoxide DMS0-D6 with o.o1 ppm accuracy. Values of N~R 3C chemical shifts were measured in relation to the solvent signal and calculated according to TMS-scale 3)4) ~S - ~DMS~ ~ 39-~6 ppm- ~he values of the chemical shifts are presented in Table 1. ~nal~sis of Ni~13C-spectra of the studied samples of the known and claimed modifications of the cited compound has shown that no impurities were observe~ on the signal/noise = 100 ratio level.

_ - 8 The given data allow to conclude that the novel com-pound according to the present invention has a chemical formula identical with that of the specified compound.
Table 1 Chemical Shifts of Carbon13C Nuelei of the Known and Claimed Crystalline i~odifica-tions of 2-Dimethylaminoethyl-n-Butylamino-benzoate Hydrochloride "1 : : Position of carbon atom in molecule ~os- ~ompound : of specified compound 6 ~
CIH3-C2H2-C3H2-C4H2- ~IH ~ C~o ~ : CI : C2 C3: C4: C5: C6~
I: 2 : 3 : 4: 5: 6: 7: ~3 1 Known modification I4.27 20.25 3I.05 42.55 I53.94 III.42 2 ~Iodification of the pre-sent inven-tion I3.75 I9.76 30.57 4I~94 I53,3I II0~74 ~ab~ co~ lued) ~GS, Position of carbon atom in molecule of specified compound _ OC 2 - C H2 - (C 3)2-C7 C~ C9 cI0 CII CI2~
I: 9 : I0 : II : I2: I3: I4 I32~I9 II5~06 I66.37 58.80 56~I0 43~46 .

209168~
g Table 1 (continued) I:9 : I0 : II: I2 : I3 : I4 2 I3I.48 II4.63 I65~63 58.30 55.08 42,53 - given values correspond to two equivalent atoms of carbon - 13.
Retention time was measured on highly efficient capil-lary column with nonpolar liquid phase on gas chromatograph.
Length of the colu~n 30 m, gas-carrier (helium) rate 40 cm/min. Measurements were carried out at tempera-tures 220, 230, 240~C. The data given in Table 2 demonst-rate identity of retention times of the known and claimed crystalline modifications of the cited compound. The data 10 presented make it possible to conclude that the crystalline modification of the invention has a chemical formula of the specified compound.
~able 2 Times of Gas Chromatographic Retention ~f the Known and Claimed Crystalline ~odifi-cations of 2-Dimethylaminoethyl-n-Butylamino-benzoate E~drochloride Nos Compound . ( 220~C ) ~ ( 230~C ) ~ ( 240~C ) I Known crystal-line modi~ica-tion I5 I2~0 II 2I .I 8 42.9 2 Crystalline modification of the inventionT5 II~6 II 2I,3 8 43.0 ~ 2a~ 68 ~

To compare spectral characteristics of the known crystalline modification and the claimed modification of the specified compound, their IR- and QR-spectra were measured.
IR-spectroscopic analysis was conducted in the fre-quency range of 400 - 4000 cm 1 in KBr.
Characteristic IR-frequencies are given in Table 3.
Table 3 Characteristic IR,-~requencies of the Known Modification and the Claimed Crystalline Modifi-cation of 2-Dimethylaminoethyl-n-Butylaminobenzo-ate Hydrochloride IR-frequencies, cm 1 Known modification of the : Claimed modification of the specified compound : specified compound I600,I580,I536 I600,I580,I534 I286,I276 I284 I I74, I I67 I I72 II26,II20, II0~3 II24~

As follows from ~able 3, the main distinction of the IR-spectr~n of the claimed crystalline modification from the known one consists in the absence of band splitting at 1284, 1172 and 1124 cm 1.
QR-spectra were measured in the frequency range of of 10 - 2000 cm 1. Characteristic Q~ requencies are given in ~able L~, ,jol7 ~able 4 Characteristic QR-Frequencies of the Known and Claimed Crystalline ~Iodifications of 2-Dime-thylaminoethyl-n-Butylaminobenzoate Hydrochloride QR-frequencies, cm 1 Known modification of the : Claimed modification of the s~ecified compound : specified compound I597,I577,I534 I60I
I376,I345,I309 I478 I273 I380,I35I

I22,I00,87~77 920-640 62,5I,37,23 ~4,58,39 QR-spectr? of r!o~ification of the invention significant~
differ from Q~-spectra of the known modification. It follows fro~ Table 4 that the k~o~n ~odification has in the range cf 150 - 10 cm 1 a highly structured spectrum consis-ting of 8 bands with peaks at 122, 100, 87, 77, 62, 51, 37 and 23 ~m ~ he claimed novel crystalline modification o~ the spe-cified compound is characterized by only slightly manifes-ted bands at 84, 58 and 39 cm 1.
~ hus,the data given above evidence that the compound of the invention is the novel crystalline modification of 2-dimethylaminoethyl-~-butylaminobenzoate hydrochloride.
Local anaesthetic activity of the claimed crystalline modification of the cited compound was studied in compari-son with the kno~n modif cation (preparation tetracaine widely used in microsurgery of eye).

To do this, 1% solution of the known preparation and 0.1, 0.2, 0.25 and 0.3% solutions of the claimed prepara-tion in 0.~0 solution of sodium chloride were prepared.
In~estigations were carried out on 44 animals - chin-chilla rabbits. Each of the listed ~olutions of the speci-~ied compound was administered dropwise in equal amount into a rabbit's eye and time of onset of anaesthesia and duration of anaesthesia were determined by a method of touching the cornea of the animal's eye. In all cases ().06 ml of' solution were administered dropwise into an eye ( t~o 0.03 ml droplets). In 1.5 hour after recovery from anaesthesia, the rabbits were killed, the test eye was ex-cerpted and subjected to electron microscopy and ordinary histological analysis. Duration of anaesthetic effect of 15 o.1%, 0.2%~ 0~25~o and 0.3% solutions o~ the claimed prepa-ration was compared with duration of anaesthetic effect of the standard anaesthetic, that is 1% solution of the known preparation.
Experimental values of the time of onset of anaesthesia and dependence of duration of anaesthetic effect of all test solutions of the preparation on their concentration are presented in ~able 5 (OC= 0.95).
Table 5 Nos. : :Concent-:Number :Average :Average dura-of :Preparation:ration :of ani-:time of :tion of anaes-tests: :of solu-:mals :anaethe-:thesia, min : :tion,% : :sia on- :
: :set,s 1 : 2 : 3 : 4 : 5 : 6 1 Known pre-paration 1 3 16.3+3.2 48.0+6.7 claimed pre-paration 0.1 3 12.7+1.5 13.4-3-3 2 Known pre-paration 1.0 3 13.0+1.0 43.1+5-~
Claimed pre-paration 0.2 3 13.7+2.0 33.0+0.4 '~, 209168B -Table 5 ( continued) 1 : 2 : 3 : 4 : 5 Known prepa-ration 1.0 3 9.7+1.5 51.8+6.4 Claimed pre-paration 0.25 4 20.8+0.7 32.1+1.7 4 Known prepa-ration 1.0 3 13.3+6.0 61.3+-4.0 Claimed pre-paration o.3 4 8.o+1.5 55.2+1.7 Influence of radial keratotomy on duration of anaesthe-tic effect of the test solutions of the specified compound was studied. The values of time of onset of anaesthesia caused by dicaine solutions in the coarse of keratotomy on rab~its are glven in Table 6 ( ~= 0.95).
Table 6 Nos.:Prepara- :Concent-:Average time :Average duration :tion :ration :Of anaethesia:of anaesthesia, min : :of solu-:onset,s : :tion,~ : :
1 Known pre-paration 1.0 11.3+1.9 21.6+0.4 2 Claimed preparation 0.3 11.3+0.9 15.7+0.5 3 _ '~ - 0.25 11.0+0.6 12.4+0.3 4 - " - 0.1 15.0+0.7 6.9+0.~

~ hen 0.1~, solution of the compound of the invention was used, duration of complete anaesthesia allowed to car-ry out only three stages of a five-stage operation of ke-ratotomy, i.e. marking, incisions of the cornea peripheryand incisionsto the central optical zone. After this,sensi-tivity of the eye to surgical instruments restored.~hen administering 0.25'~i and especially 0.3~0 solutions of the ~9 20g-~ ~8 ~
_ 14 -preparation of the invention, duration of anaesthesia was sufficient to perform all five stages of keratotomy lasting 3 minutes (i.e. controlling the depth and deep-ening of the insicion and lavage of the incision). When 0.25% and 0.3% solutions of the claimed compound were administered, the rabbit's eye was completely insensitive to surgical manipulations. 0.3% solution of the claimed preparation, as compared with 1% solution of the known preparation, provides,in the coarse of operation,similar intensity of anaesthesia sufficient to perform all stages of the operation.
It should be noted that a sur~ical operation redu~es duration of anaesthesia in case of administering solutions of the claimed preparation of all concentrations under test, as ~ 11 as of using 1% solution of the known preparation.
Howeve , reduction of duration of anaesthetic effect cause-d by the solution of the claimed praparation and solution of the known preparation proceeds to variable degrees: in case of administering 0.1% solution of the claimed preparation, duration of a~aesthetic effect de-creases on the average from 13 min to 7 min (46.2%); in case of 0.25~o solution, from 32 min to 12 min (62.5~); in case of 0.3% solution, from 55 min to 16 ~in (70.9~,0)~ in case of using 1% solution of the known preparation, from 25 51 ~in to 22 min (56.9%).
When 1% solution of the kno~vn preparation wasadminis-tered into the rabbit's eye, the eye surface became undu-lated and dim. -Ihen the rabbit's eye wasaffected by the solution of the claimed preparation of all concentrations under test, no changes of the eye surface were observed, visually the -test eye di~n't differ from a~ intact one.
~ s a result of the ~ests conducted, a conclusion can be made that duration of anaesthetic effect of o.30~0 so-lution of the claimed preparation and of 1~ solution of the ~nown preparation used in ophthalmosurgery is approximate-ly equal and makes up, on the average, 55 ~in (difference 55.2+1.7 min and 61.3+4.0 min is not certain). ~Nith simi-- 15 - ~ 2 09 ~ 58 ~
lar intensity of anaesthesia caused by 0.3~0 solution of the claimed compound and 1% solution of the known preparation, restoration of eye sensitivity, in case of administering solution of the pr~paration of the invention, proceeds faster than in case of using solution of the known prepa-ration. 0.3% solution of the preparation of the invention equal in intensity and duration of anaesthetic effect to 1~ solution of the known preparation, as distinct from the latter doesntt cause undulation and dimness of a surface 0 OI the rabbit's eye. After administering solutions of all the test concentrations, the eye visually doesn't differ from the intact one. ~.1,, 0~2~o and 0.25% solutions of the preparation of the invention can be used for local anaes-thesia of t~e eye in the coarse of various painful manipu-lations and procedures of short duration.
~ hus, the data given evidence that the claimed crystal-line modification of the specified compound shows increased local anaesthetic activity and reduced side effects. Indica-ted properties allow to decrease significantly a dosage of the preparation at enhanced therapeutical efficiency of the latter.
~he claimed crystalline modificatio~ oî the specified compound, according to the invention, is an active principle of the pharmaceutical preparation for anaesthesia of eyes.
~he pharmaceutical preparation of the invention con-tains the active ingredient in amount of from 0.05 to 0.5%
by mass and any pharmaceutical solvent appropriate for eye drops. ~dditionally, it may contain any derivati~e o~ alkyl-cellulose in amou~t of from 0.1 to 0.75% by mass, specifi-cally water-soluble methylcellulose.
Selection of the concentration of the active ingre-dient is determined by the fact that within the indicated range of concentrations a high local anaesthetic effect 's manifested ~vithout side actions.
~5 ~he pharmaceutical preparation o~ the invention may contain any ~lkyl derivative of cellulose (methyl, ethyl, propyl, etc) as all of them cause an increase of droplets' viscosity which enhances the most efficient utilization of the active ingredient.
Selection of alkylcellulose concentration in the phar-maceutical preparation of the invention is determined by the fact that only within ~he indicated range such viscosi-ty of pharmaceutical preparation is obtained which results in the best adhesion of the preparation to the tissue ofthe eyeball. At alkylcellulose concentration below 0~1~o~ vis-cosity of the claimed preparation is so low that drops ad-mi~istered into the eye freely flow out from u~der the eyelid.
At alkylcellulose concentration above 0.75%, viscosity increases to such extent that prevents uniform spreading o~ the claimed pharmaceutical preparation over the eyeball.
Preferable usa~e of methylcellulose is associated with the fact that it is most compatible with the active principle, efficiently releases the active principle from the pharmaceutical preparation and is widelyused in med~
¢al practice.
~or experi~ental studies of the claimed pharmaceuti-cal preparation, various versions of the preparation were prepared.
Studies of local anaesthetic activity of the claimed pharmaceutical preparation compared to the known prepara-tion were conducted on chinchilla rabbits. Each of the pre-pared solutions was administered dropwise in equal amou~ts into the rabbit's eye and time o~ onset of anaesthesia and its duration were determined using a method of touching the cornea of the animal's eye (Renier method). In all ~0 cases 0.06 ml of solution of the preparation were adminis-tered (two 0.03 ml droplets). In 1.5 hour after recovery fro~ anaesthesia, the rabbits were killed, the eye was ex-cerpted and subjected to histological analysis.
Data of experimental studies are presented in Table 7 ~5 ( ~C = 0.95).

. 20gl68~

Table 7 Nos. :Composition of :Average :Average du-: Side of pharmaceutical :time of :ration of : effects tests:preparation, :anaesthe- :anaesthesia;
% by mass :sia onset,Sminutes . ,seconds 1 : 2 : 3 : 4 : 5 1 Known ~re~aration:
aetive principle-0.25, sodium chlo- Surface of the ride-O.9,distilled eye becomes dim water up to 10013.4+2.o 15.3+2.0 2 Known preparation:
active principle- Surface of the 0.5, sodiu~ chlo- eye becomes un-ride- 0.9, distil- dulated and dim led water up to +
10013.0-1.0 26.4+3.2 3 Known preparation:
active principle- Undulation and 1.0, sodium chlo- di~ness increase ride- 0.9, distil-led water up to 10013.0+1.0 48.0+3.8 4 Preparation of the invention:
active principle- Not observed 0.05, sodium chlo-ride-0.9, di stil -led water up to 100 15.0+2.0 8.2~1.5 5 Preparation of the invention:
active principle-0.1, sodium chlo-ride-0.9, distil-led water up to Not observed 10012.7+1.5 13.4+3~3 6 Preparation of the invention:
active principle-0.3, sodium chlo-ride-0.9, distil-led water up to 1008.0~1.5 55.2+1.7 ~ot observed ' 2091686 - 18 _ Table 7 (co~tinued) 1 : 2 : 3 : 4 : 5 7 Preparation of the invention:
active principle-0.~, sodium chlo-ride-0.9, meth~l-cellulose-0.1~
distilled water up to 100 5.3+1.0 75.2+3.0 Not observed 8 Preparation of the invention:
active principle-0.3, sodiu~ chlo-ride- 0.9, methyl-eellulose-o.5, distilled water up to 100 5.0+1.0 75.7+3.5 ~ot observed 9 Preparation of the invention:
active principle-0.3, sodium chlo-ride- 0.9, methyl-cellulose-0.75~
distilled water up t 100 4.0+0-5 69.3+2.1 Not observed It follows from the table that the pharmaceutical pre-paration of the in~ention having hi~h anaesthetic activity, practically doesn't cause side effects. High local anaes-thetic activity of the active principle of the claimed pharmaceutical preparation allows to reduce concentration of the active principle in the preparation, as compared with the known preparation, by a ~actor of three and more and thus to decrease significantly toxicity of the preparation.
Preparation of the in~ention was tested in clinics on humans. The test was conducted during performing ra-dial keratotomy. Three versions of pharmaceutical prepa-rations were administered~ ;, solution of the known pre-paration (on the base of the known modification of 2-di-methylamino-n-butylaminobenzoate hydrochloride) (Ver-sion 1); 0.25 and 0.3% solutions of the preparation of the invention (Versions 2 and 3) in the coarse of performing radial keratotomy. Solution of Version 1 was adminis~ered dropwise at each of the first three stages of the opera-tion. In all patients without exception, cornea edema,desquamation of epithelium were observed, edema retained during 2 days after the operation.
Solution of Version 2 was employed for surface anaes-thesia of the eye in 28 patients. his solution was admi-nistered dropwise only onee - at the first sta~e of the operation, but intensity of anaesthesia was deficient to perform the operation in part of the patients.
Solution of Version 3 was used for surface anaesthe-sia of the eye in 80 patients. This solution was adminis-tered also once at the first stage of the operation. Anaes-thesia was efficient to carry out the operation. Residual phenomena of tactile sensitivity without painful sensations, not preventing to perform the operation were observed in 5 patients (6.2%). On the average, to perform an operation on a patient, 5 ml of 1% solution of the known preparation and only 0.1 ml of 0.25% and Q~ solutions of the prepara-tion of the invention were used.
As a result of the tests conducted it was found that the anaesthetic effect of 0.3~ solution of the claimed pre-paration, the preparation volume being reduced 50-fold in the coarse of performing keratotomy, corresponds to the anaesthetic effect of 1% solution of the known preparation.
Administration of said solution of thec~a~ed preparation doesn't cause edema of the eyelid in all the patients, as distinct from the employment of the known preparation.
The pharmaceutical preparation for anaesthesia of eyes, according to the invention, is a transparent, colourless liquid, pH 4.3 - 6.8.
The claimed preparation is produced according to the known techniques.
The preparation of the invention is ~tored at a tempe-rature of 25~C at a light-proof place. Storage life is 12 months.

- 20 - fl ~ ~ ~ ~ ~ 8 ~
After 6 and 12 months of storage, the preparation of the invention was anal~sed for validity.
Results of the analysis demonstrate that after 12 ~onths of storage, the main properties of the claimed pre-paration haven't changed which allows to make a conclusionon the validity of the preparation.
The claimed pharmaceutical preparation for arlaesthesia of eyes allows to reduce the number of post-operative comp-lications due to the absence of side effects, to decrease toxicity on account of reduced concentration of the active ingredient in the preparation with retention of local anaes-thetic effect and prolonged term of validity up to 12 months (term of validity of the known preparation is 3 months).
According to the invention, the active ingredient of the claimed preparation - a novel cry~talline modification of 2-dimethylaminoethyl-n-butylaminobenzoate hydrochloride is produced by way of cooling solution of the indicated com-pound of a polymorphic form in water or in an organic sol-vent, or their mixture by a cooling agent at a rate of no 2~ less than 8~C/min till its complete crystallization, with s~bsequent isolation of obtained crystals and their drying.
As a cooling agent use is made of any substance ca-pable to reduce a temperature of the compound being cooled at a rate of no less than 8oc/min. The best suitable sub-stance used as a cooling agent is liquid-~itrogen~ its uti-lization allows to increase yield of the base product due to fast gain and further maintenance of the necessary rate of cooling.
Selection of the cooling rate of the initial solution of said compound is determined by the fact that the object set forth ( production of a novel crystalline modification) is attained at a cooling rate of no lesc than 8~C/min~
Conducting a process of crystallization at a cooling rate below 8~C/min fails to produce the claimed novel crystal-line modification.
The upper level of the coolin~ rate is not limited.
At an~ ma~imu~ attainable coolin~ rate o~ the initial solu-_ - 21 - ~ 20~1~8 t tion, formation of the novel crystalline modification pro-ceeds.
Process of cooli~ is carried out in water or any or-ganic solvent, or in their mixture in which the initial compound is soluble. The best suited solvents in ~hich the initial compound is well soluble are water and ethanol.
In doing so, the best yield of the base ~roduct is attained.
~ he claimed modification C&n be procuced irrespec-tive of the concentration of the initial compound in the solution.
Selection of the dr~Jing conditions at a pressure of no nore tha~ 10 2mm Hg is deter~ined by the fact that the ready dried ~roduct should have nu~idity no more thaln Dryin~ a,v a pressure higher than 13 ~mr~ ~g gives a da~p spreading ~nstable mass.
~ or better understanding of the present invention, ~iven below are the followi~g e~amples of producing the claimed modification.
Example 1 500 ml of 1aV~ aqueous solution OI 2-dimethylamino-ethyl-n-butylaminobenzoate hyd~rochloride (polymorphic form) were cooled by liquidnitrogen at a coolin~ rate o~~
~~C/min till complete crystallization. ~~1e obtained fro-zen mass was put on pans and charged in a sublimator.
Drying was carried out at 10 2m~ Hg to residual humidity of 3C~'. Yield of the base product - 95.7~J by mass.
The obtained compoundwas characterized by the va-lues of interplanar spacings d and relative intensities of reflections I coinciding with ~he corresponding indi-cated values of the ~ovel crystalline modification of2-dimethylaminoethyl-n-butylaminobenzoate hydrochloride having melting point 148.6 t 0.3~C ~ith a sin~le endo-thermal effect. In all indices (~R, IF-, Q~R-spectra), the obtained compound correspondedto the claimed novel crystaliine modification.
h'xample 2 The process was conducted in a ma~ner simil~r to that of Ti~ample 1, concentration of the inltial compo1~nd -~ 2091686 in water was 50% by mass.
Yield of the base product 96.2% by mass.
The obtained compound having melting point 148.6+
0.3~C with a single endothermal effect had characteris-tics simila~ to those of Example 1.
~ Xample 3 The process was conducted ~la manner similar to that of h~xample 1, cooling rate being equal to 300~C/min.
Yield of the base product 97.5G~o by mass.
The obtained compound having melting point 148.6+
0.3 C with a single endothermal effect had characteris-tics similar to those of E~ample 1.
Example 4 The process was conducted in a manner similar to that of E~ample 1, drying was carried out in a sublimator at a pressure of 10 5mm H~.
Yield of the base product 96.8,~o by mass.
The obtained compound had characteristics similar to those of Example 1.
EXample 5 500 ml of 10~ solution of 2-dimethylaminoethyl-n-butylaminobenzoate hydroehloride (polymorphic form) was ~d by liquid nitrogen at a rate of 8~C/min till comp-lete crystallization of the solution. Produced frozen mass was put on pans and eharged in a sublimator. Drying was carried out at 10 2mm Hg.
Yield of the base product 95.6~ by mass.
In all indices, the obtained compound corresponded to the compound of Example 1 with melting point 148.6+
30 0.3~C and a single endothermal effect.
Example 6 The process was conducted in a manner similar to that of Example 5, concentration of initial compound in ethanol being 5~0 by mass.
Yield of the base product 97.0~0 by mass.
The obtained compound had characteristics similar to those of Example 1.

- 20gl686 Example 7 The process was carried out in a manner similar to that of Example 5, at a cooling rate of 300~C/min. Yield of the base product 98.2!~ by mass.
~he obtained compound had characteristics similar to those of Example 1.
Example 8 The process was carried out in a manner similar to that of Example 5, drying being conducted in a sublimator at a pressure 10 5mm Hg. Yield of the base product 96.3%
by mass.
The obtained compound had characteristics similar to those of Example 1.
Example 9 5~~ ml of 10~o solution of the initial compound in wa-ter-ethanol mixture (1:1) were taken.~he process was car-ried out in a manner similar to that of Exa~ple 5. Yield of the base product 96.C~0 by mass.
The obtained compound had characteristics similar to those of Example 1.
Industrial Applicability Crystalline modification of 2-dimethylaminoethyl-n-bu-tylaminobenzoate hydrochloride according to the invention possesses a local anaesthetic effect and can be widely used in various fields of medicine, particularly pharmace-utical preparation for anaesthesia of eyes based on the claimed compound can find application in ophthalmology in the coarse of performing surgical operations.

Claims

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

l. A crystalline modified 2-dimethylamino-ethyl-n-butylamino-benzoate hydrochloride, characterized by a single endothermal effect of melting at 148.6~0.3°C and the following values of interplanar spacings d and relative intensities of reflections I:
I d(A) I d(A) 3 26.140 4 2.824 100 12.755 2 2.798 27 8.538 1 2.762 6 6.380 2 2.744 2 6.117 2 2.678 6 5.644 1 2.631 12 5.491 1 2.570 56 5.096 1 2.534 17 4.874 1 2.514 4.486 1 2.454 4.244 1 2.419 7 4.418 1 2.346 1 4.137 1 2.308 4.001 1 2.256 3 3.949 1 2.232 3.828 1 2.166 3 3.585 1 2.008 7 3.515 2 1.953 3 3.427 1 1.691 3 3.341 1 1.584 3 3.310 3 3.170 4 3.156 4 3.149 1 3.064 2 2.979 1 2.944

1 2.903

2. A method of preparing a crystalline modified 2-dimethylaminoethyl-n-butylamino-benzoate hydrochloride, which comprises the steps of:
a) cooling a solution of 2-dimethyl-aminoethyl-n-butylamino-benzoate hydrochloride of polymorphic form in a solvent selected from the group consisting of water, an organic solvent and a mixture thereof, by means of a cooling agent at a rate of no less than 8°C/minute until the solution has substantially completely crystallized to form crystals;
b) isolating the crystals so formed; and c) drying the isolated crystals.

3. A method according to claim 2, wherein the organic solvent is ethanol.

4. A method according to claim 2, wherein the cooling agent is liquid nitrogen, and step (c) is carried out in vacuo at a pressure of no more than 10-2 mmHg.

5. A pharmaceutical composition for anesthetizing a localized area of a patient to be treated, comprising from about 0.05 to about 0.5%

by weight of a crystalline modified 2-dimethyl-amino ethyl-n-butylamino-benzoate hydrochloride as defined in claim 1, together with a pharmaceutically acceptable carrier therefor.

6. A pharmaceutical composition according to claim 5, additionally containing an alkyl cellulose in an amount of from about 0.1 to 0.75%
by weight.

7. A pharmaceutical composition according to claim 6, wherein the alkyl cellulose is a water-soluble methyl cellulose.

8. A method of preparing a crystalline modified 2-dimethylaminoethyl-n-butylamino-benzoate hydrochloride, said method comprising the steps of:
a) cooling a solution of 2-dimethyl-aminoethyl-n-butylamino-benzoate hydrochloride of polymorphic form in a solvent selected from the group consisting of water, an organic solvent and a mixture thereof, by means of a cooling agent at a rate of no less than 8°C/minute until the solution has substantially completely crystallized to form crystals, and b) isolating the crystals so formed.

9. A method according to claim 8, further comprising the steps of drying the isolated crystals.

10. A method according to claim 9, wherein the organic solvent is ethanol.

11. A method according to claim 10, wherein the cooling agent is capable itself of effecting said minimum cooling rate.

12. A method according to claim 11, wherein the drying is carried out in vacuo at a pressure of no more than 10-~mmHg.

13. Use of a pharmaceutical solution of a crystalline modified 2-dimethylaminoethyl-n-butylamino-benzoate hydrochloride for anesthetizing a localized area of a patient to be treated, said crystalline modified 2-dimethylaminoetyl-n-butylamino-benzoate hydrochloride being characterized by a single endothermal effect of melting at 148.6+0.3°C and the following values of interplanar spacings d and relative intensities of reflections I:
I d(A) I d(A) 3 26.140 4 2.824 100 12.755 2 2.798 27 8.538 1 2.762 6 6.380 2 2.744 2 6.117 2 2.678 6 5.644 1 2.631 12 5.491 1 2.570 56 5.096 1 2.534 17 4.874 1 2.514 4.486 1 2.454 4.244 1 2.419 7 4.418 1 2.346 1 4.137 1 2.308 4.001 1 2.256 3 3.949 1 2.232 3.828 1 2.166 3 3.585 1 2.008 7 3.515 2 1.953 3 3.427 1 1.691 3 3.341 1 1.584 3 3.310 3 3.170 4 3.156 4 3.149 1 3.064 2 2.979 1 2.944 1 2.903

14. Use of a pharmaceutical solution of a crystalline modified of 2-dimethylaminoethyl-n-butylamino-benzoate hydrochloride for anesthetizing a localized area of a patient to be treated, wherein the crystalline modified 2-dimethyl-aminoetyl-n-butylamino-benzoate hydrochloride is prepared by:
a) cooling a solution of 2-dimethylamino ethyl-n-butylamino-benzoate hydrochloride of polymorphic form in a solvent selected from the group consisting of water, an organic solvent and a mixture thereof, by means of a cooling agent at a rate of no less than 8°C/minute until the solution has substantially completely crystallized to form crystals, and b) isolating the crystals so formed.

15. Use according to claim 14, wherein the organic solvent is ethanol and the cooling agent is capable itself of effecting said minimum cooling rate.

16. Use according to claim 14, wherein the localized area to be anesthetized is at least one eye of the patient.

17. Use according to claim 14, wherein the pharmaceutical solution contains the crystalline modified 2-dimethylamino ethyl-n-butylamino-benzoate hydrochloride in an amount of from 0.05 to 0.5% by weight.

18. Use according to claim 17, wherein the pharmaceutical solution additionally contains an alkyl cellulose in an amount of from about 0.1 to 0.75% by weight.

19. Use according to claim 18, wherein the alkyl cellulose is a water-soluble methyl cellulose.